Fpga laboratory manual

FPGA on the Terasic DE0-Nano development board.1 The schematic entry method used in this lab will be very similar to the design entry method that you have experienced with in fiwrst lab with Multisim. Now, instead of discrete logic, the FPGA will implement the logic. The Cyclone IV could implement the equivalent of 2-input nand gates. The DE board has the same basic layout, except with the Cyclone IV E FPGA in place of the Cyclone II 3 LAB 1: GETTING STARTED 3 LAB 1: Getting Started 11 Objectives and Learning Outcomes The objectives of this lab are to have the students learn how to: 1. assign pins, 2. set all the unused pins on the FPGA to be tri-stated input pins with. © National Instruments Corporation ix FPGA Module User Manual About This Manual This manual describes the LabVIEW FPGA Module software and techniques for building applications in LabVIEW with the FPGA Module. Use this manual to learn about FPGA Module programming features to help you build VIs that run on National Instruments Reconfigurable I/O.

LabVIEW FPGA is an add-on for LabVIEW that targets FPGA devices. The Digital Logic VI Library is a collection of common logic devices used for developing circuits. The student will design a combinational logic circuit (CLC) derived from a given truth table. This lab requires some knowledge of fundamental digital logic concepts. EECS /A FPGA Lab Lab 2: Introduction to FPGA Development + Creating a Tone Generator Prof. John Wawrzynek, Nicholas Weaver TAs: Arya Reais-Parsi, Taehwan Kim Department of Electrical Engineering and Computer Sciences College of Engineering, University of California, Berkeley 1 Before You Start This Lab This lab and all future labs can be. The FPGA control board is used to generate variable frequency PWM pulses. These pulses can be used for open loop control of the following Power Electronics laboratory experiments. 1. Buck Converter 2. Switching Characteristic of MOSFET and Diode 3. Boost Converter 4. Buck-Boost Converter 5. Flyback Converter 6. Forward Converter Performing the Experiments.

Students begin by simulating logic gates in NI Multisim, and then build and deploy PLD circuits to an FPGA target. The lab manual also offers project-based. Xilinx's FPGA development tools support VERILOG. In Experiment #2, the basic operations found in the VIVADO will be used to design and simulate a simple Boolean. Interrupt performance characteristics of ARM and FPGA. 9. Flashing of LEDS. Interfacing stepper motor and temperature sensor. Implementing zigbee.